In his editorial ‘Can psychedelics have a role in psychiatry once again?’ (Reference SessaSessa, 2005), Dr Sessa offers a detailed historical and heuristic perspective of psychedelics, with particular reference to psychotherapy. Reading the article the feeling was of sensed (by the author) repulsion of the ‘neurobiological’ psychiatrist in relation to ‘research that explores alternative states of consciousness’, ‘psychedelics research’ as a ‘vi-able neurobiologial substrate for the very human experience of religious encounter’ and generally a possible use of psychedelics in psychiatry. Perhaps we are some of those psychiatrists who ‘have been conditioned to consider such work as mysticism’ but we found such a proposition challenging. We would like to discuss recent neurobiological findings related to one of the psychedelics mentioned by Dr Sessa, which perhaps would offer an explanation as to why these substances have limited scope in psychiatry today.
3,4-Methylenedioxymethamphetamine (MDMA), also known as ecstasy, is largely consumed by young adults as a recreational drug. Common doses of this popular compound (60-120 mg, equivalent to 1-2 tablets) produce unexpectedly high blood levels, with MDMA present at high concentration at the receptor level. The drug induces dose-dependent neurotoxicity in animal models and humans; this mainly involves the central serotonergic system (Reference Ricaurte, Yuan and HatzidimitriouRicaurte et al, 2002). Serotonin is important for brain development and maintenance of neural and glial function in the mature brain (Reference AzmitiaAzmitia, 2001). Another interesting mechanism involves the ‘pruning’ of serotoninergic neurons (Reference Ricaurte, Yuan and McCannRicaurte et al, 2000). The drug appears to reduce the number of serotonin axons and axon terminals but nerve cells will often replace terminals upstream for the damaged ones. The resulting effect is of substantial impaired connectivity. Younger brains are particularly susceptible because of increased neuroplasticity, resulting in a substantial reorganisation of brain connectivity.
Functional magnetic resonance imaging studies suggest a decreased activation in inferior temporal regions, the hippocampus, angular gyrus and striate cortex associated with working memory performance (Daumann et al, Reference Daumann, Schnitker and Weidermann2003, Reference Daumann, Fischermann and Heekeren2005), with the hippocampus and globus pallidus being possibly more sensitive (Reference Reneman, Majoie and HabrakenReneman et al, 2001; Reference Jacobsen, Mencl and PughJacobsen et al, 2004; Reference Daumann, Fischermann and HeekerenDaumann et al, 2005). More recent voxel-based morphometry studies support the hypothesis that the use of MDMA leads to reduction in cortical grey matter in multiple brain regions, including the neocortex, brain-stem, cerebellum and anterior cingulate gyrus, reflecting compromised serotonergic activity (Reference Cowan, Lyoo and SungCowan et al, 2003). Although we have mentioned only a few studies, there is substantial evidence to suggest considerable neurotoxicity of compounds such as those mentioned by Dr Sessa. There are concerns about possible long-term adverse effects of psychedelics in both infrequent and regular users, which explain why psychiatrists are reluctant to consider such substances in their pharmacological armamentarium.
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